MachineBuilding
px

3D line profile sensors in multi-sensor ring configurations

Stemmer Imagingvisit website

 

3D line profile sensors in multi-sensor ring configurationsStemmer Imaging, which supplies and supports the Gocator 3D line profile sensors from LMI Technologies, says that the introduction of Firmware 5.0 has increased the multi-sensor networking capability for these versatile devices. Since many scanning applications require shape data for the complete exterior profile of a part, multi-sensor ring configurations can now be set up for full, 360-degree, cross-section visualisation.

The new multi-sensor ring layout complements the existing Gocator multi-sensor networking capabilities by enabling the entire object shape to be inspected and target features measured from all sides. As the part moves through the sensor ring, a 3D point cloud of the entire circumference of the part is acquired, with full data preservation on object sides and overhanging areas. If required, data is stitched into a complete 3D model to provide an accurate volume measurement.

All sensors in the ring network are aligned to a common co-ordinate system in order to determine relative position using a known shape. This is set up by means of an enhanced new six-degrees-of-freedom simple alignment process. Simply by passing a known polygon target through the ring of sensors, each angular corner is aligned between the sensors so the smart sensor can then calculate each sensor's position and transform data into a common co-ordinate system. This transformation is carried out automatically for every 3D point produced by the sensor.

Measurements can be made using the new Profile Closed Area tool provided in Firmware version 5.0. This enables cross-sectional area measurements to be made on profiles as the object moves through the sensor ring, from which the volume can be calculated.

Cut precise volumes

For portioning applications, where the target object must be cut according to its total weight, the weight of the object can be determined from its volume and density. Scripting can be used to accumulate the areas from the profiles acquired as the object moves through the sensor ring and trigger downstream control decisions to activate cutters when the target weight is reached.

There are a number of other Gocator multi-sensor networking configurations as well as the ring configuration:

  • Two or more sensors can be mounted side-by-side to measure large objects that are wider than a single sensor's field of view.
  • Sensors mounted opposite each other can determine true object thickness when the object cannot be referenced to a known surface like a conveyor.
  • Sensors mounted at an angle to an object can eliminate shadowing effects.

Follow the link for more information about the LMI Gocator 3D line profile sensors from Stemmer Imaging.

 
© Copyright 2006-14 Damte Ltd.